KR101988040B1 - Method for managing water feed pipelines, computer readable medium for performing the method - Google Patents

Abstract

According to the present invention, provided is a water supply management method, which displays position information required for water supply construction on map data displaying a pre-built water supply network, sets a water supply line for forming a net water supply network from the water supply network to position information, calculates a water supply design amount required for the water supply construction in accordance with the water supply line, and generates a water supply card including the map data displaying the water supply design amount and the water supply line, thereby setting an optimal water supply line from a pre-built water network to a position where water supply is required.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water supply pipe management method,

The present invention relates to a water supply pipe management method and a recording medium for performing the water supply pipe management method. More particularly, the present invention relates to a water supply pipe management method for planning and managing a new water supply pipe from a pre- To a recording medium.

Infrastructure facilities such as road network, gas network, water network, electricity network, and communication network are the most fundamental basic facilities forming the foundation of economic activity. In particular, waterway management is increasingly important in that waterway management is a resource that can directly affect not only economic activities but also human health and life.

As the computer and communication technologies have been developed recently, watercourses managed in the past have gradually been computerized and managed.

In the meantime, in order to supply water to a place where no water network has been formed, it is required to extend the existing water network to estimate the cost of the water supply work, It is important to prevent and plan efficient waterway expansion.

However, in the past, there have been active researches on leakage detection technology of pre-formed waterway, but there is a problem that the design process of water line due to the establishment of waterway is still dependent on field trip through manpower.

Korean Patent Publication No. 10-2016-0128189 Korean Patent Publication No. 10-2003-0036283

One aspect of the present invention is to provide a water supply pipe management method for establishing an optimum water supply pipe from a water supply network established when a water supply network is installed to a location where water supply is required and automatically calculating a water supply construction cost therefrom, Media.

The technical problem of the present invention is not limited to the technical problems mentioned above, and other technical problems which are not mentioned can be understood by those skilled in the art from the following description.

A water supply pipe management method according to an embodiment of the present invention is a method for managing a water supply pipe according to an embodiment of the present invention that receives location information required for water supply construction and displays the location information on the map data displayed on the prefabricated water supply network, A water supply line for forming a new water supply network from the network to the location information is set, and based on the length of the water supply line displayed on the map data, the geographical characteristic of the area where the water supply line is set, Calculates a water supply design amount required for water supply work along the pipeline, and generates a water supply card including the water supply design amount and map data showing the water supply line.

Wherein the water supply design amount includes earthworks costs generated at the time of earthworks work and the water supply design cost is calculated by calculating the water supply design cost based on at least one topography And calculating the earthworks cost for each geographical segment according to the earthwork unit price information set for each geographical type among the unit price information and calculating the water supply design cost reflecting at least one earthwork cost .

The water supply line is divided into at least one terrain section according to the topographic characteristics of the map data area where the water supply line is formed. And labeling the photographed images by areas showing the same topographic characteristics and matching the labeled photographed images with the map data to identify the areas on the map data on which the water supply pipes are displayed correspond to the areas of the photographed image have.

Wherein the water supply design amount includes an installation cost generated at the time of installation of the water supply pipe or the meter, and the calculation of the water supply design amount includes determining the diameter of the water supply pipe attached to the water supply pipe or the kind of the meter, The facility cost may be calculated according to the installation cost information set for each installation type, and the water supply design cost reflecting the at least one facility cost may be calculated.

The diameter of the water supply pipe or the type of the water meter attached to the water supply pipe is determined by automatically determining the diameter of the water supply pipe branched from the water supply network in accordance with the diameter of the water supply network connected to the water supply pipe, The type of the meter may be automatically determined according to the diameter of the meter.

The water supply design amount includes a material cost related to the purchase of the material used for the water supply construction. The calculation of the water supply design amount is performed by determining at least one material required for the water supply construction according to the structural characteristic of the water supply pipe , Calculating the material cost according to the material unit price information set for each material in the unit price information, and calculating the water supply design cost reflecting the at least one material cost.

Determining at least one material required for the water supply construction according to the structural characteristic of the water supply pipe may include analyzing the water supply network and the water supply channel indicated in the map data to determine a change in diameter of the water supply pipe with respect to the diameter of the water supply network And automatically determine a material for connecting the water supply network and the water supply pipe without leakage according to a simulation result.

The setting of the water supply line may be performed by setting the water supply line according to a route that reaches the position information from the water supply network at the shortest distance.

Setting the water supply line includes setting a plurality of candidate water supply lines connecting the water supply network and the location information and calculating the water supply design amount in advance for each of the candidate water supply pipes, The water supply line may be set as the water supply line.

The unit price information is updated every preset cycle based on the new unit price information to be subsequently input. If the unit price information is updated after the water card is generated, the unit price information is updated based on the updated unit price information, A re-calculation of the water supply design amount, and a message for inquiring the user whether or not to apply the re-calculated water supply design amount to the water supply card may be output.

Wherein the calculating of the water supply design amount includes comparing the calculated water supply design amount with a preset threshold range to determine whether the set water supply line is appropriate, wherein the water supply design amount is less than the threshold range It is possible to re-establish a new water supply line that does not overlap with the water supply line and reset the water supply line until the water supply design amount corresponding to the reset water supply line falls within the critical range.

The critical range may be set to an average value of water supply design amounts according to past water supply works performed within a predetermined radius based on the location information or may be set to a length similar to the length of the water supply pipe, As shown in FIG.

In the process of setting the critical range, the past unit price information referred to when calculating the water supply design cost according to another water supply construction is compared with the current unit price information referred to when calculating the water supply design water amount according to the water supply pipe, It is possible to assign different weights to the earthwork cost, the building cost, and the material cost, which constitute the water supply design amount.

Further comprising the step of transmitting the water supply card to a specific terminal for electronic settlement of the water supply card and automatically creating an input field of an electronic document for water supply construction application based on the water supply card in which the electronic settlement is completed, The watering card includes an electronic signature area for electronic approval, and when it is confirmed that the electronic approval has been completed from the specific terminal, if it is confirmed that the electronic signature is not recorded in the electronic signature area, Can be repeatedly performed.

In addition, a computer-readable recording medium according to an embodiment of the present invention may record a computer program for performing a water supply pipe management method.

According to an aspect of the present invention, it is possible to set an optimum water supply line from a pre-built water supply network to a location where a water supply is required, and to designate a water supply design amount required for water supply construction according to a set water supply pipe in detail Can be calculated.

1 is a conceptual diagram illustrating a schematic configuration of a water supply line management apparatus according to an embodiment of the present invention.
2 to 6 are views showing a concrete setting process of the water supply pipe using the apparatus of FIG.
FIG. 7 is a flowchart showing a schematic flow of a water supply line management method according to an embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

1 is a block diagram showing a schematic configuration of a water supply line management apparatus 1 (hereinafter referred to as apparatus) according to an embodiment of the present invention.

The apparatus (1) according to the present invention displays and manages a water supply network composed of water supply channels pre-built in map data reflecting geographic information, electronically receives water supply and leakage complaints when they occur, And may be a computing device or a server capable of performing a function of converting the data into a database. In particular, the apparatus (1) according to the present invention plans a new water supply line from a pre-installed water supply network in an area where water supply is required, automatically calculates a water supply design amount required for water supply work according to a planned water supply line, In the process of construction, electronic documents about the details that require payment can be created so that electronic approval can be made.

To this end, the device 1 according to the present invention may be pre-installed with software or applications for carrying out the series of processes described above, and the software (application) A computer program may be recorded. The device 1 according to the present invention may also include a UI (User Interface), a UX (User Experience) or a GUI (Graphic User Interface) executed by a preinstalled software (application) Can be output as image information.

Specifically, the apparatus 1 according to an embodiment of the present invention includes a map data management unit 100, a water supply pipe setting unit 200, a water supply design value calculation unit 300, and a water supply card generation unit 400 .

The map data management unit 100 can manage a plurality of map data for each region stored in the device 1. [ The map data may be image information reflecting the geographical characteristic of a specific area, and there is no limitation on the type.

The map data management unit 100 can reflect and manage the water supply network constructed based on the map data. That is, the map data managed by the map data management unit 100 may include information on which area the previously constructed water supply network is formed.

The map data management unit 100 can display the input location information on the map data when location information (hereinafter referred to as location information) required for water supply construction is input. In addition, the map data management unit 100 can display the water supply line set by the water supply line setting unit 200 described later together on the map data displayed on the pre-built water supply network.

The water supply line setting unit 200 can set a water supply line for forming a water supply network up to the input location information. In this regard, FIG. 2 will be described together.

2 is a diagram showing an example in which the water supply line set by the water supply line setting unit 200 is displayed on the map data.

The water supply line setting unit 200 can set a water supply line for forming a new water supply network from the water supply network to the location information by referring to the map data in which the water supply network is displayed. At this time, the water supply line setting unit 200 can set the water supply line according to a predetermined standard. For example, the water supply pipe setting unit 200 may set a path that reaches the shortest distance from the established water supply network to the position information as a water supply pipe. As another example, the water supply line setting unit 200 may set a plurality of candidate water supply lines, calculate an estimated water supply design cost for water supply work according to each of the candidate water supply lines, The candidate water supply line can be set as a water supply line.

The water supply design value calculation unit 300 can determine whether the water supply line set by the water supply line setting unit 200 is appropriate. Specifically, the water supply design cost calculation unit 300 may calculate the water supply design cost required for the water supply construction to form the set water supply pipe, compare the water supply design cost with the reference value, and verify whether the construction of the currently set water supply pipe is appropriate.

Here, the design water amount of the water supply may include the earthworks cost generated when the earthworks work is performed, the building cost incurred when the water supply pipe or meter is installed, and the material cost related to the purchase of the material used for the water supply construction. The water supply designing cost calculating unit 300 may independently calculate the earthworks cost, the site cost, and the material cost, and calculate the water supply design amount reflecting the calculated amounts.

First, the water supply design cost calculation unit 300 can calculate the earthworks cost required for the water supply work according to the set water supply pipeline. The water supply design cost calculation unit 300 may classify the features of the landforms in which the water supply pipeline is set and calculate the earthwork costs according to the geographical characteristics, It needs to be calculated.

For this purpose, the water supply design value calculation unit 300 may divide the water supply pipe into at least one terrain-based section. In this regard, the description will be made with reference to Figs. 3 to 5 together.

3 to 5 are diagrams showing a series of processes in which the water supply design value calculation unit 300 divides the water supply pipe into sections according to the terrain.

3, the water supply design value calculation unit 300 can receive the photographed image corresponding to the location information indicated in the map data. The water supply design value calculation unit 300 may analyze the location information required for water supply construction and extract information on latitude and longitude. The water supply design amount calculation unit 300 can search the photographed image based on the extracted latitude and longitude. The photographed image is stored in advance in the apparatus 1 according to the present invention or can be obtained from another apparatus which is interlocked with the apparatus 1. [

In FIG. 3, the location information and the water supply channel are arbitrarily displayed on the actually photographed image for convenience of illustration. As shown in FIG. 3, the water supply pipe initially set by the water supply pipe setting unit 200 passes through the non- And then it reaches the location information through the concrete pavement. At this time, the earthwork cost required for the non-paved area is different from the earthworks cost required for the asphalt paved road area, so that the water supply design cost calculator 300 needs to distinguish it.

For this purpose, the water supply design value calculation unit 300 may label the captured image as a plurality of areas as shown in FIG. Specifically, the water supply design value calculation unit 300 may label the photographed images by areas of the same geographical characteristic using the previously learned artificial neural network implemented in the apparatus 1 according to the present invention.

Specifically, the water supply design value calculation unit 300 arranges a search window having a predetermined pixel size at a specific position of the photographed image, convolates the pixel value of the photographed image included in the search window with the set value of the search window, The calculated feature value can be extracted. The water supply design value calculation unit 300 may perform a convolution process of moving a search window in a predetermined pixel unit in a shot image to generate a feature map in which pixel values of the shot image are converted into feature values. The water supply design amount calculation unit 300 may perform a pooling process of reducing the image size by sub-sampling (e.g., max pooling) the feature map obtained from the photographed image. The water supply design value calculation unit 300 repeats the convolution process and the pooling process a predetermined number of times and then upsampling the maximum pooled RGB values through a deconvolution process to restore the photographed image to its original size . As shown in FIG. 5, the photographed image that has undergone this process can be converted into an image formed of the same group of pixels having similar characteristics.

That is, the water supply design value calculation unit 300 can group and label the pixels having similar characteristics among the pixels constituting the photographed image using the artificial neural network. Thereafter, the water supply design value calculation unit 300 can inquire the class information that has been learned in advance, and can identify which object the pixels labeled in the same group are.

Here, the previously learned class information may include a class for the terrain where the earthworks cost may be changed at the water supply construction such as the asphalt pavement, the concrete pavement, the building, and the non-paved area. Also, the pre-learned neural network may be in the form of a SegNet neural network algorithm, which is a type of Convolutional Neural Network (CNN), but is not limited thereto.

5, the water supply design value calculation unit 300 may identify the topography of the water supply line indicated in the map data by matching the labeled shot image with the map data. 3 and 5, the water supply design value calculation unit 300 can confirm that the water supply duct is formed in the concrete pavement road area and the non-pavement road area, and that the water supply pipe is formed on the concrete pavement, The length formed in the road area can be distinguished.

On the other hand, if it is determined that a part of the initially set water supply pipe is included in the building area, the water supply design value calculation unit 300 may request the water supply pipe setting unit 200 to set a new water supply pipe. Specific details related thereto will be described later with reference to FIG.

The water supply design cost calculation unit 300 can calculate the earthworks cost for the water supply pipeline classified by each geographical section by referring to the groundwater cost information set for each geographical type among the unit price information stored in advance in the apparatus 1. [ For example, the water supply design value calculation unit 300 calculates the water supply design amount of the concrete pavement in the case where the water supply pipe formed in the concrete pavement area is 2 m and the water supply pipe formed in the unpaved road area is 1 m, The earthwork cost can be calculated as 190,000 won by referring to the information of the roadway excavation cost and the information of the excavation cost of the unpackaged road set to 50,000won per 1m.

In addition, the water supply design cost calculation unit 300 can calculate the water purification cost required for water supply work according to the set water supply pipeline. That is, the water supply design cost calculation unit 300 can calculate the cost of the water pipe generated during installation of the water pipe, meter, and the like in the water supply construction process.

Specifically, the water supply design value calculation unit 300 determines the diameter of the water supply pipe or the type of the meter attached to the water supply pipe, and calculates the installation cost according to the installation site price information set for each installation type in the previously stored unit price information have. At this time, the water supply design cost calculation unit 300 automatically determines the diameter of the new water supply pipe to be installed in the water supply pipe branched from the water supply network according to the water supply pipe diameter of the existing water supply network connected to the water supply pipe, The type of meter can be determined automatically.

Specifically, the water supply design value calculation unit 300 can be set so that the diameter of the water supply pipe to be embedded in the set water supply pipe has a smaller diameter than the water supply pipe diameter of the water supply network connected to the water supply pipe. Also, the water supply design value calculation unit 300 can determine a kind of meter capable of measuring the flow rate according to the diameter of the set water supply pipe. The water supply designing cost calculating unit 300 may calculate the site cost information corresponding to the type of the water supply pipe and the meter, and calculate the water pipe cost based on the site cost.

Finally, the water supply design cost calculation unit 300 can calculate the material cost required for the water supply work according to the set water supply pipeline. Material costs are the costs associated with the purchase of materials used in waterworks, which may include government materials, which are the cost of purchasing materials from the client, and contracting materials, which are the costs of purchasing materials directly from the contractor.

The water supply design cost calculation unit 300 may determine at least one material required for the water supply construction according to the structural characteristics of the water supply pipe and calculate the material cost according to the material cost information set for each material among the stored unit price information.

Specifically, the water supply design value calculation unit 300 analyzes the structure of the water supply line set by the pre-configured water supply network and the water supply line setting unit 200 displayed in the map data, and calculates the diameter of the water supply line with respect to the diameter of the water supply network The flow rate and the pressure according to the change can be simulated. The water supply design value calculation unit 300 can automatically determine the material for extending the water supply line from the water supply network without leakage according to the simulation result. For example, when the water supply pipe having a diameter of 5 cm is branched from a water supply pipe having a diameter of 10 cm, the water supply design amount calculation unit 300 can simulate the flow rate and the pressure applied to the branch point. The water supply design cost calculation unit 300 can determine the type of at least one connection member (material) to connect the water supply network and the water supply pipe based on the simulation result.

The water supply design value calculation unit 300 calculates the material cost according to any one of the price information of the service material unit price or the contract material price information set for each material among the previously stored information on the purchase price of the material, can do.

The water supply designing cost calculating unit 300 may calculate the water supply design cost reflecting the earthwork cost, the pitting cost, and the material cost thus calculated. That is, the water supply design cost calculation unit 300 may calculate the water supply design cost by summing the earthwork cost, the building cost, and the material cost.

On the other hand, the above unit price information including the excavation unit price information, the facility price information and the material unit price information may be updated every preset cycle. If the unit price information is updated after the water supply card is generated, Re-calculating the water supply design amount included in the card, and outputting a message for inquiring the user whether or not to apply the re-calculated water supply design amount to the water supply card.

The water card generating unit 400 can determine whether the calculated water supply design amount is appropriate or not. To this end, the water card generating unit 400 may compare the calculated water supply design amount with a predetermined threshold range to check whether the water supply design amount is included in the critical range. The threshold range can be set in various ways.

In one embodiment, the water card generating unit 400 searches the other water supply construction details performed within a predetermined radius (for example, 10 km) based on the received location information, and determines the average value of the water supply design amounts calculated at the time of other water supply construction, Range. Alternatively, the water card generating unit 400 may search for the details of the water supply works performed in the unit areas (for example, ~, ~, ~, ~, ~) where the location information belongs, The average value of the design amount can be set as the critical range.

In another embodiment, the water card generating unit 400 may search for another water supply construction history set to a length similar to the currently set water supply pipe length, and set the average value of the water supply design calculated at the time of other water supply construction to a critical range . For example, when the length of the water supply line set by the water supply line setting unit 200 is 4 m, the water supply card generating unit 400 searches the past water supply construction details for the establishment of the water supply line 3 to 5 m long, The water supply design amount can be set to the critical range.

In this process, the water card generating unit 400 may assign different weights to the earthworks cost, the pitting cost, and the material cost, which constitute the past watering design amount used in the setting of the critical range. Specifically, the water card generating unit 400 compares the unit price information required in the water supply work performed in the past with the unit price information required in the water supply construction according to the currently set water supply pipe, and assigns different weights can do.

For example, if the difference between the past earthwork unit price information and the current earthwork unit price information is a first difference value, and the difference between the past bore unit price information and the current bore hole price information is smaller than the first difference value If it is confirmed as the second difference value, the weight of the earthwork cost constituting the past series design amount used for setting the critical range can be set lower than the weight of the earthquake cost. In other words, when any water supply design amount in the past is increased overall due to the increase of the earthwork cost, the weight of the earthwork cost can be set relatively low to reflect the error due to the decrease of the earthwork cost.

The water card generating unit 400 has an effect of reliably determining whether the water supply design amount currently set is appropriate by setting the average of the water supply design amounts of the past set with the respective weights to the critical range in this way do.

When it is confirmed that the calculated water supply design amount is included in the critical range, the water card generating unit 400 can generate the water supply card including the water supply design amount and the map data showing the set water supply channel.

On the other hand, if it is determined that the calculated water supply design amount is out of the critical range, the water card generating unit 400 may request the water supply line setting unit 200 to set a new water supply line. In this regard, FIG. 6 will be described together.

6 is an example of a new water supply line set by the water supply line setting unit 200 displayed on the map data.

The water supply pipe setting unit 200 may be configured such that a part of the initially set water supply pipe is formed in an area where water supply work is impossible (for example, a building area), or if it is determined that the calculated water supply design amount is out of the critical range, Can be set.

The water supply line setting unit 200 can reset the water supply line to a new path that is not overlapped with the initially set water supply line. The water supply line setting unit 200 may repeat the process of generating the water supply line until it is confirmed that the newly set water supply line is included within the critical range.

Thus, the apparatus 1 according to the present invention sets an optimum water supply line for extending the water supply network up to the requested position when the water supply network is newly installed or extended, and automatically calculates the water supply design cost accordingly can do.

FIG. 7 is a flowchart showing a schematic flow of a water supply line management method according to an embodiment of the present invention.

The water supply line management method according to the present invention can be performed by the above-described apparatus (1), and the apparatus (1) comprises a software (application) for performing a series of processes according to the water supply line management method according to the present invention .

The apparatus 1 can receive position information required for water supply work and display it on map data (71). The device 1 manages the map data on which the pre-built water supply network is displayed, and can display it on the map data when location information requiring water supply construction is received.

The apparatus 1 can set a water supply line for forming a new water supply network from the established water supply network to the requested location information (73).

For example, the device 1 may establish a water supply line along a path that reaches the shortest distance from the established water supply network to the location information. Alternatively, the apparatus 1 may be configured to set a plurality of candidate water supply conduits connecting the water supply network and the position information, calculate an expected water supply design amount for each of the candidate water supply pipes in advance, The candidate water supply line can be set as a water supply line.

The apparatus 1 can calculate the water supply design amount according to the initially set water supply line (75). Specifically, the apparatus 1 can independently calculate the earthwork cost, the pitting cost, and the material cost, and calculate the sum as a water supply design amount. Since the detailed process of calculating the water supply design amount has been described above, the repetitive description will be omitted.

The apparatus 1 may compare the calculated water supply design amount to the critical range (77) to determine whether the initially set water supply line is appropriate. If it is determined that the calculated water supply design amount is out of the critical range (NO in 77), the apparatus 1 returns to the step 73 of setting the water supply line to set a new water supply line which is not overlapped with the initially set water supply line have. The apparatus 1 may repeat this process until the water supply design amount corresponding to the reset water pipe is included in the critical range.

If it is confirmed that the calculated water supply design amount is included in the critical range (YES in 77), the apparatus 1 can generate the water supply card including the calculated water supply design amount and the map data showing the water supply channel for the calculated water supply design amount 79).

In some other embodiments, the device 1 may transmit the generated water card to a particular terminal with a higher-level approval authority, for electronic approval of the water card generated by the water card generating section 400.

Thereafter, the apparatus 1 can automatically create an input field of the electronic document for requesting the water supply work based on the water supply card in which the electronic settlement is completed. Here, the watering card may include an electronic signature area for electronic approval. When it is determined that the electronic signature has not been recorded in the electronic signature area while confirming that the electronic approval has been completed from the specific terminal, which is a senior approval authority, , And repeat the approval confirmation request process at predetermined time intervals.

On the other hand, the apparatus 1 can cumulatively manage the generated watering cards, and various information included in the plurality of watering cards that are cumulatively managed can be statisticalized so as to be reflected in the watering policy in the future.

As described above, the water pipe management method of the present invention can be implemented in an application or implemented in the form of program instructions that can be executed through various computer components and recorded in a computer-readable recording medium. The computer-readable recording medium may include program commands, data files, data structures, and the like, alone or in combination.

The program instructions recorded on the computer-readable recording medium are those specially designed and constructed for the present invention, and may be those known to those skilled in the art of computer software.

Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROMs and DVDs, magneto-optical media such as floptical disks, media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like.

Examples of program instructions include machine language code such as those generated by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware device may be configured to operate as one or more software modules for performing the processing according to the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be possible.

1: Water supply line management device
100: map data management unit
200: water supply pipe setting unit
300: water supply design amount calculating section
400: water card generating section

Claims (15)

A water supply line management method performed by a water supply line management apparatus,
Wherein the water supply line management device receives the location information required for water supply construction and displays the location information on the map data on which the pre-built water supply network is displayed,
The water supply line management apparatus sets a water supply line for forming a new water supply network from the water supply network to the location information with reference to the map data,
The water supply line management apparatus calculates a water supply design amount required for water supply work according to the water supply line based on the length of the water supply line displayed on the map data, the topographic characteristics of the area where the water supply line is set, However,
The water supply line management apparatus generates a water supply card including the water supply design amount and the map data showing the water supply line,
In calculating the water supply design amount,
The image processing apparatus according to claim 1, further comprising: an input unit for inputting an image corresponding to the positional information, labeling the photographed image by using the previously learned artificial neural network for each area showing the same topographic characteristics, Wherein the water supply pipe is divided into at least one zone by geographical section and the earthworks cost is calculated for each geographical segment according to the groundwater price information set for each geographical type among the unit price information, To calculate the amount,
In the case of labeling the photographed images according to regions showing the same topographic characteristics using a previously learned artificial neural network,
Wherein each of the pixels constituting the photographed image is grouped according to pixel values, and groups of the photographed images are classified as asphalt pavement through class information in which characteristics of each terrain including the asphalt pavement road, concrete pavement road, building and non- The pavement road, the concrete pavement road, the building area and the non-pavement area,
The method according to any one of claims 1 to 3, wherein the step of matching the labeled shot image with the map data and segmenting the water supply line indicated on the map data into at least one terrain-
Wherein the water supply channel displayed on the map data is divided into at least one terrain section of an asphalt pavement road, a concrete pavement road, a building area, and an unpacked area,
In calculating the water supply design amount,
Wherein at least a part of the water supply pipe is divided into a building area as a result of dividing the water supply pipe displayed on the map data into at least one terrain section of at least one of an asphalt paved road, a concrete paved road, a building paved road, And calculating a water supply design amount for the re-established water supply line by resetting the water supply line for forming the water supply network.
delete delete The method according to claim 1,
The water supply designing amount includes an installation cost generated at the time of installation of a water supply pipe or a meter,
In calculating the water supply design amount,
Determining the diameter of the water supply pipe or the type of the meter attached to the water supply pipe, calculating the water pipe cost according to the water pipe unit price information set for each installation type in the unit price information, The amount of water is calculated.
5. The method of claim 4,
The diameter of the water supply pipe attached to the water supply pipe or the kind of the water meter is determined,
The diameter of the water supply pipe branched from the water supply network is automatically determined according to the diameter of the water supply network connected to the water supply pipe and the type of the water meter is automatically determined according to the diameter of the water supply pipe. .
The method according to claim 1,
The water supply design amount includes a material cost related to the purchase of the material used for the water supply construction,
In calculating the water supply design amount,
Determining at least one material required for the water supply work according to a structural characteristic of the water supply pipe, calculating the material cost according to material unit price information set for each material among the unit price information, Wherein the amount of the design is calculated.
The method according to claim 6,
Determining at least one material required for the water supply construction according to a structural characteristic of the water supply pipe,
Analyzing the water supply network and the water supply line indicated in the map data to simulate the flow rate and the pressure according to the diameter change of the water supply pipe with respect to the diameter of the water supply network and to leak the water supply network and the water supply pipe according to the simulation result And automatically determines the material to be connected without any connection.
The method according to claim 1,
In order to set the water supply line,
And the water supply line is set in accordance with a route that reaches the location information from the water supply network at the shortest distance.
The method according to claim 1,
In order to set the water supply line,
A plurality of candidate water supply lines connecting the water supply network and the location information are set up, and the water supply design cost is calculated in advance for each of the candidate water supply pipes, and any one of the candidate water supply pipes Is set to the water supply line.
The method according to claim 1,
The unit price information is updated every preset cycle based on new unit price information received subsequently,
If the unit price information is updated after the watering card is generated, the watering design amount included in the watering card is re-calculated based on the updated unit price information, and whether the re-calculated watering design amount is applied to the watering card And outputting a message for querying the user.
The method according to claim 1,
In calculating the water supply design amount,
And comparing the calculated water supply design amount with a preset threshold range to determine whether the set water supply line is appropriate,
If it is determined that the water supply design amount is out of the critical range, a new water supply line that does not overlap with the water supply line is reset, and the water supply line is reset until the water supply design amount corresponding to the reset water supply line is included in the critical range And repeating the process.
12. The method of claim 11,
The threshold range may be,
Is set as an average value of water supply design amounts according to past water supply works performed within a predetermined radius based on the location information or is set as an average value of water supply design amounts according to other water supply works set to a length similar to the length of the water supply pipe , Water pipe management method.
13. The method of claim 12,
In the process of setting the critical range, the past unit price information referred to when calculating the water supply design cost according to another water supply construction is compared with the current unit price information referred to when calculating the water supply design water amount according to the water supply pipe, Water supply pipeline management method which assigns different weights to earthworks cost, site cost, and material cost which constitute water supply design amount.
The method according to claim 1,
Further comprising transmitting the water supply card to a specific terminal for electronic settlement of the water supply card and automatically creating an input field of an electronic document for application for water supply construction based on the water supply card in which the electronic settlement is completed,
Wherein the water card includes an electronic signature area for electronic approval,
Wherein the approval confirmation process is repeatedly performed at predetermined time intervals when it is confirmed that the electronic approval has been completed from the specific terminal and the electronic signature is not recorded in the electronic signature area.
A computer-readable recording medium on which a computer program is recorded, for performing the method for managing a water supply pipe according to any one of claims 1 to 14.

Images